Cost and Specs
Total cost: approx. US$15 (parts only; you need tools such as soldering iron etc.)
Weight: 29 grams
Output: 5 volts DC (USB standard)
Input: 6 volts AC
Efficiency: Will charge a Sony Experia Z smartphone at a rate of approximately 1% per 1km (with the smartphone turned off).
Charge start: 5.5km/h
What this device does
When charging your smartphone using a wall charger or your laptop’s USB, the electricity going into your phone is direct current (DC) at 5 volts. A bicycle dynamo hub, however, usually creates electricity in the form of alternating current (AC), at 6 volts. So, we’ve got to change the electricity created by the dynamo hub (6V AC) into the same type as what comes out of your smartphone wall charger or your laptop’s USB (5V DC). That’s what this device does.
Disclaimer: I know nothing about electronics. This charger has worked well for me so far (about 1,000km of cycle touring), but it may turn on you and eat your smartphone’s innards alive, rendering it a useless shell. Also, note that in very hilly terrain where constant high cycling speeds are expected (on the downhills), the charger may not cope with the high voltage output from the dynamo (voltage output often varies depending on speed) (thanks to commenter Prashant for the real-world observation). This may mean a need to unplug the charger on long, fast downhills. If you’d rather let someone else take the responsibility for your delicate electronics, check out the Bright-Bike Revolution (amazing value for a solid charger) or the Busch & Mueller Luxos IQ2 headlight with USB charging built in, or the Tout-Terrain Plug II.
What you need
- Parallel stripboard (example)
- 5 Volt Regulator LDO LM2940 (example – max input voltage 26V) (changes 6V to 5V)
- Capacitor 1 (Tantalum bead, 16V 22µF) (example)
- Capacitor 2 (Tantalum bead, 35V 0.47µF) (example)
- Capacitor 3 (Electrolytic capacitor, 25V 2200µF) (example)
- The capacitors help keep the flow of electricity steady as you slow down and speed up on your bike (see Wikipedia for more).
- Bridge Rectifier, 1.5A, 100V (example) (changes the input from AC to DC)
- Micro-USB terminal (example; you’ll cut off the big USB end and keep the small end, to plug into your device)
- Wire and terminals to attach to dynamo outlets
- A case of some kind to hold the electronics
How to Make it
Cut the veroboard (stripboard) into an oblong, 4 holes wide by approximately 25 holes long. I did this by scoring the board with a craft knife on both sides and then snapping it.
You can now go about carefully soldering the parts in place at the rear of the board. Take care not to overheat the parts, and make sure not to ‘connect’ any of the copper strips on the stripboard with stray bits of solder.
Post-soldering should look something like below. Ignore all the drill-marks, except for the one at the bottom. You need that one to stop current going directly to the regulator (LM2940). Holes can be made by hand-turning a 5mm drill bit.
Prepare your micro-USB connector by butchering a cheap USB to micro-USB cable, discarding the big USB end. We will attach this to the circuit-board, and it will plug into your smartphone. Frustratingly, USB cable inner wire colors are sometimes different (like, green for negative). But most of the time, they will be red (positive), black (negative) and white (data). You won’t be needing the white wire, so you can cut it short.
I wanted to be able to easily attach and remove the charger from my bike. The only time I use it is when I am cycle touring (about twice a year). This was easily done by using simple male/female connectors. The wire running from my hub to the female connectors is on my bike all the time, and I can just connect the charger when I need to.
Performance in the real world
This is the second charger I have made (using the exact same circuitry). The first one ended up in a PVC pipe casing, which is ugly and bulky. It works exactly the same as this new slick-cased version. Using the PVC-pipe-case version, I was able to get around 1% charge for every 1km pedaled on a laden, flat-terrain four-day cycle tour (with the phone powered off). That was charging a Sony Experia Z smartphone, which has a very large battery (2330ｍAh). With an iPhone, with its smaller 1440mAh, this might be more like 2% charge per 1km.
In any case, with the phone powered off, it will charge fully over a full day of cycling. It does not put out enough charge to keep up with intensive computing tasks like Google Map Navigation. That is, with the screen on all the time, plus the GPS running, the battery will still run down even while charging.
My wife has claimed this new version as her own, so I am still stuck with the PVC pipe version. On her bike, this is the set up we have at present (she doesn’t use a handlear bag). Here, the charger is attached using a cable tie, in the photo at the top of this post, we have attached a velcro strap, which will make attaching/removing the charger easier.
Thanks to commenter Prashant, I’ve just found out that you can buy a perfectly good charger for only US$30 or so: The Biologic ReeCharge Dynamo Kit. See the demo on Youtube https://www.youtube.com/watch?v=tnlB68KulcE, and looks like you can get it on Amazon: http://www.amazon.com/BioLogic-Reecharge-Dynamo-Kit/dp/B006OSQUNI. For that price, the only reason you’d ever need to make your own device is if you’re really into DIY! Official page for the kit here: http://www.thinkbiologic.com/products/reecharge-dynamo-kit-micro-usb-cable
Note Viktoras’s comment that the Biologic Reecharge may not give enough output for some devices.